Effects of Zn2+/Mg2+ ratio on dielectric properties of BaTiO3-based ceramics with excellent temperature stability: Experiments and the first-principle calculations

To satisfy the development of MLCC devices, the dielectric properties and temperature stability of ceramic materials urgently needs to be improved. In our work, the 0.9BaTiO3-0.1Bi(ZnxMg0.5-xY0.5)O2.75 ceramics with x=0.0–0.5 are successfully prepared based on a traditional solid-state method. Meanw...

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Bibliographic Details
Published in:Ceramics international 2022-01, Vol.48 (1), p.847-854
Main Authors: Wang, Menglong, Xie, Jialing, Xue, Keying, Li, Lingxia
Format: Article
Language:English
Subjects:
BaTiO3-Based ceramics
Crystal structure
Dielectric properties
Temperature stability
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Summary:To satisfy the development of MLCC devices, the dielectric properties and temperature stability of ceramic materials urgently needs to be improved. In our work, the 0.9BaTiO3-0.1Bi(ZnxMg0.5-xY0.5)O2.75 ceramics with x=0.0–0.5 are successfully prepared based on a traditional solid-state method. Meanwhile, the ceramic sample (core-shell structure) with x = 0.1 exhibits excellent dielectric properties and temperature stability (εr: 1207, tanδ: 0.009 and εr/ε25 ≤±15% within −80 to 200 °C), which satisfies the Electronic Industries Association (EIA) X9R (-55–150 °C, Δεr/ε25 ≤±15%) specification. In addition, the physical mechanism behind dielectric properties and temperature stability is systematic investigated based on experimental characterization and the first-principle calculations. The interface polarization is regarded as the primary cause affecting the dielectric properties, and has a close relationship with shell structure of ceramic samples. The lattice deformation of shell structure is caused by the introduction of heterovalent ions and non-equivalent substitution. Dielectric constant may be advance as content of Zn2+ ions increases due to the electronic enrichment around the zinc site in distorted lattice matrix. However, the weaken force between atom and electron results in the poor temperature stability.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2021.09.166